Study of complex turbulent flows over rough walls and flow of non-newtonian fluid through model porous media

研究粗糙壁上的复杂湍流和非牛顿流体通过模型多孔介质的流动

• 批准号: 250029-2007
• 负责人: Tachie, MarkFrancis
• 金额: $ 1.82万
• 依托单位: University of Manitoba
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2009
• 资助国家: 加拿大
• 起止时间: 2009-01-01 至 2010-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=426195
• 关键词: Study; complex; turbulent; flows; over

The objectives of this proposal are to study complex near-wall turbulent flows and flow of non-Newtonian fluid through porous media. The turbulence research will focus on the investigation of roughness effects on turbulent wall jets, pressure gradient boundary layers, and shallow wakes in an open channel. The values of the pressure gradient parameter will be varied from mild to strong. A planar and stereo particle image velocimetry (PIV) will be used to conduct the velocity measurements. The instantaneous velocity field will be used to identify coherent structures, and the dynamic role of these structures on turbulence production in the various turbulent flows and surface conditions will be elucidated. From the PIV data, iso-contours and profiles of the time averaged mean velocity and the various terms in the transport equations for turbulent kinetic energy and Reynolds stresses will be evaluated. A planar laser induced fluorescence will be used to study roughness effects on scalar transport and mixing process in the wall jets and wakes. The wall jet results will provide insight into the interaction between the inner and outer layers, and how this interaction is modified by specific roughness. The pressure gradient experiments will provide information on the combined effects of roughness and pressure gradients on the turbulent structure. The physical understanding obtained from the turbulence research and the high quality data sets will be used in the future to guide the development of accurate models for predicting turbulent flows of engineering importance. The porous media will comprise arrays of acrylic rods placed perpendicular and parallel to flow in a rectangular channel. The rods will fill only a fraction of the space between the top and bottom walls of the channel. A variety of non-Newtonian fluids will be studied. The rheological properties of the fluids will be measured. A PIV will be used to study the velocity field. The effects of variables such as porosity, filling fraction of channel height and specific fluid on onset of recirculation within the rods, and penetration of the plain flow into the porous media will be studied. The research will provide opportunity to train highly qualified personnel and provide substantial economic benefits to Canada.

该方案的目的是研究复杂的近壁湍流和非牛顿流体在多孔介质中的流动。湍流研究将集中于研究粗糙度对明渠中湍流壁面射流、压力梯度边界层和浅层尾迹的影响。压力梯度参数的值将从温和到强烈变化。将使用平面和立体粒子图像测速仪(PIV)进行速度测量。瞬时速度场将被用来识别相干结构，这些结构在各种湍流和地面条件下对湍流产生的动力学作用将被阐明。根据PIV资料，将评估时均平均速度的等高线和轮廓，以及湍流动能和雷诺应力输运方程中的各种项。用平面激光诱导荧光研究了粗糙度对壁射流和尾迹中标量输运和混合过程的影响。壁面喷流的结果将使我们深入了解内层和外层之间的相互作用，以及这种相互作用如何被特定的粗糙度所修正。压力梯度实验将提供有关粗糙度和压力梯度对湍流结构的综合影响的信息。从湍流研究中获得的物理理解和高质量的数据集将在未来用于指导用于预测具有工程意义的湍流的精确模型的发展。多孔介质将包括垂直和平行放置在矩形通道中流动的丙烯棒阵列。这些棒子只会填满渠道顶壁和底壁之间的一小部分空间。我们将研究各种非牛顿流体。将测量流体的流变性。PIV将被用来研究速度场。研究了孔隙率、通道高度填充分数和比流体等变量对杆内再循环开始的影响，以及平流对多孔介质渗透的影响。这项研究将为加拿大提供培训高素质人才的机会，并为加拿大带来可观的经济利益。